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Standard Library Functions Outline

Standard Library Functions Outline. Programming: Return Type More on Function Arguments Function Argument Example Part 1 Function Argument Example Part 2 Function Argument Example Part 3 Using the C Standard Math Library Function Call in Assignment Function Call in printf

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Standard Library Functions Outline

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  1. Standard Library Functions Outline • Programming: Return Type • More on Function Arguments • Function Argument Example Part 1 • Function Argument Example Part 2 • Function Argument Example Part 3 • Using the C Standard Math Library • Function Call in Assignment • Function Call in printf • Function Call as Argument • Function Call in Initialization • Function Use Example Part 1 • Function Use Example Part 2 • Function Use Example Part 3 • Function Use Example Part 4 • Evaluation of Functions in Expressions • Evaluation Example #1 • Evaluation Example #2 • Standard Library Functions Outline • Functions in Mathematics #1 • Functions in Mathematics #2 • Functions in Mathematics #3 • Function Argument • Absolute Value Function in C #1 • Absolute Value Function in C #2 • Absolute Value Function in C #3 • A Quick Look at abs • Function Call in Programming • Math Function vs Programming Function • C Standard Library • C Standard Library Function Examples • Is the Standard Library Enough? • Math: Domain & Range #1 • Math: Domain & Range #2 • Math: Domain & Range #3 • Programming: Argument Type • Argument Type Mismatch CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  2. Functions in Mathematics #1 “A relationship between two variables, typically x and y, is called a function, if there is a rule that assigns to each value of x one and only one value of y.” http://www.themathpage.com/aPreCalc/functions.htm So, for example, if we have a function f(x) = x + 1 then we know that CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  3. Functions in Mathematics #2 For example, if we have a function f(x) = x + 1 then we know that CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  4. Functions in Mathematics #3 Likewise, if we have a function a(y) = | y | then we know that CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  5. Function Argument f(x) = x + 1 a(y) = | y | We refer to the thing inside the parentheses immediately after the name of the function as the argument(also known as the parameter) of the function. In the examples above: • the argument of the function named f is x; • the argument of the function named a is y. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  6. Absolute Value Function in C #1 In my_number.c, we saw this: ... else if (abs(users_number – computers_number) <= close_distance) { printf("Close, but no cigar.\n"); } /* if (abs(...) <= close_distance) */ ... So, what does abs do? The abs function calculates the absolute valueof its argument. It’s the C analogue of the mathematical function a(y) = | y | (the absolute value function) that we just looked at. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  7. Absolute Value Function in C #2 CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  8. Absolute Value Function in C #3 We say “abs of -2 evaluates to 2” or “abs of -2 returns 2.” Note that the function named abs calculates the absolute value of an int argument, and fabs calculates the absolute value of a float argument. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  9. A Quick Look at abs % cat abstest.c #include <stdio.h> int main () { /* main */ const int program_success_code = 0; printf("fabs(-2.5) = %f\n", fabs(-2.5)); printf(" abs(-2) = %d\n", abs(-2)); printf(" abs(-1) = %d\n", abs(-1)); printf(" abs( 0) = %d\n", abs( 0)); printf(" abs( 1) = %d\n", abs( 1)); printf(" abs( 2) = %d\n", abs( 2)); printf("fabs( 2.5) = %f\n", fabs( 2.5)); return program_success_code; } /* main */ % gcc -o abstest abstest.c % abstest fabs(-2.5) = 2.500000 abs(-2) = 2 abs(-1) = 1 abs( 0) = 0 abs( 1) = 1 abs( 2) = 2 fabs( 2.5) = 2.500000 CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  10. Function Call in Programming Jargon: In programming, the use of a function in an expression is referred to as an invocation, or more colloquially as a call. We say that the statement printf("%d\n", abs(-2)); invokesor callsthe function abs; the statement passesan argument of -2 to the function; the function absreturnsa value of 2. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  11. Math Function vs Programming Function An important distinction between a function in mathematics and a function in programming: a function in mathematics is simply a definition (“this name means that expression”), while a function in programming is an action (“this name means execute that sequence of statements”). More on this later. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  12. C Standard Library Every implementation of C comes with a standard libraryof predefined functions. Note that, in programming, a library is a collection of functions. The functions that are common to all versions of C are known as the C Standard Library. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  13. C Standard Library Function Examples CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  14. Is the Standard Library Enough? It turns out that the set of C Standard Library functions is grossly insufficientfor most real world tasks, so in C, and in most programming languages, there are ways for programmers to develop their own user-defined functions. We’ll learn more about user-defined functions in a future lesson. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  15. Math: Domain & Range #1 In mathematics: • The domain of a function is the set of numbers that can be used for the argument(s)of that function. • The range is the set of numbers that can be the resultof that function. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  16. Math: Domain & Range #2 For example, in the case of the function f(x) = x + 1 we define the domain of the function f to be the set of real numbers (sometimes denoted R), which means that the x in f(x) can be any real number. Similarly, we define the range of the function f to be the set of real numbers, because for every real number y there is some real number x such that f(x) = y. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  17. Math: Domain & Range #3 On the other hand, for a function q(x) = 1 / (x − 1) the domain cannot include 1, because q(1) = 1 / (1 – 1) = 1 / 0 which is undefined. So the domain might be R − {1} (the set of all real numbers except 1). In that case, the range of q would be R – {0} (the set of all real numbers except 0), because there’s no real number y such that 1/y is 0. (Note: if you’ve taken calculus, you’ve seen that, as y gets arbitrarily large, 1/y approaches 0 as a limit – but “gets arbitrarily large” is not a real number, and neither is “approaches 0 as a limit.”) CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  18. Programming: Argument Type Programming has concepts that are analogous to the mathematical domain and range: argument typeand return type. For a given function in C, the argument type – which corresponds to the domain in mathematics – is the data type that C expects for an argument of that function. For example: • the argument type of abs is int; • the argument type of fabs is float. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  19. Argument Type Mismatch An argument type mismatch is when you pass an argument of a particular data type to a function that expects a different data type. Some implementations of C WON’T check for you whether the data type of the argument you pass is correct. If you pass the wrong data type, you can get a bogus answer. This problem is more likely to come up when you pass a float where the function expects an int. In the reverse case, typically C simply promotes the int to a float. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  20. Programming: Return Type Just as the programming concept of argument type is analogous to the mathematical concept of domain, so too the programming concept of return type is analogous to the mathematical concept of range. The return typeof a C function – which corresponds to the range in mathematics – is the data type of the value that the function returns. The return value is guaranteedto have that data type, and the compiler gets upset – or you get a bogus result – if you use the return value inappropriately. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  21. More on Function Arguments In mathematics, a function argument can be: • a number: f(5) = 5 + 1 = 6 • a variable: f(z) = z + 1 • an arithmetic expression: f(5 + 7) = (5 + 7) + 1 = 12 + 1 = 13 • another function: f(a(w)) = |w| + 1 • any combination of these; i.e., any general expression whose value is in the domain of the function: f(3a(5w + 7)) = 3 (|5w + 7|) + 1 Likewise, in C the argument of a function can be any non-empty expression that evaluates to an appropriate data type, including an expression containing a function call. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  22. Function Argument Example Part 1 #include <stdio.h> #include <math.h> int main () { /* main */ const float pi = 3.1415926; const int program_success_code = 0; float angle_in_radians; printf("cos(%10.7f) = %10.7f\n", 1.5707963, cos(1.5707963)); printf("cos(%10.7f) = %10.7f\n", pi, cos(pi)); printf("Enter an angle in radians:\n"); scanf("%f", &angle_in_radians); printf("cos(%10.7f) = %10.7f\n", angle_in_radians, cos(angle_in_radians)); printf("fabs(cos(%10.7f)) = %10.7f\n", angle_in_radians, fabs(cos(angle_in_radians))); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  23. Function Argument Example Part 2 printf("cos(fabs(%10.7f)) = %10.7f\n", angle_in_radians, cos(fabs(angle_in_radians))); printf("fabs(cos(2.0 * %10.7f)) = %10.7f\n", angle_in_radians, fabs(cos(2.0 * angle_in_radians))); printf("fabs(2.0 * cos(%10.7f)) = %10.7f\n", angle_in_radians, fabs(2.0 * cos(angle_in_radians))); printf("fabs(2.0 * "); printf("cos(1.0 / 5.0 * %10.7f)) = %10.7f\n", angle_in_radians, fabs(2.0 * cos(1.0 / 5.0 * angle_in_radians))); return program_success_code; } /* main */ CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  24. Function Argument Example Part 3 % gcc -o funcargs funcargs.c -lm % funcargs cos( 1.5707963) = 0.0000000 cos( 3.1415925) = -1.0000000 Enter an angle in radians: -3.1415925 cos(-3.1415925) = -1.0000000 fabs(cos(-3.1415925)) = 1.0000000 cos(fabs(-3.1415925)) = -1.0000000 fabs(cos(2.0 * -3.1415925)) = 1.0000000 fabs(2.0 * cos(-3.1415925)) = 2.0000000 fabs(2.0 * cos(1.0 / 5.0 * -3.1415925))=1.6180340 CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  25. Using the C Standard Math Library If you’re going to use functions like cos that are from the part of the C standard library that has to do with math, then you need to do two things: • In your source code, immediately below the #include <stdio.h> you must also put #include <math.h> • When you compile, you must append -lm to the end of your compile command: gcc -o funcargs funcargs.c –lm (Note that this is hyphen ell em, NOT hyphen one em.) CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  26. Function Call in Assignment Function calls are used in expressionsin exactly the same ways that variables and constants are used. For example, a function call can be used on the right side of an assignment or initialization: float theta = 3.1415926 / 4.0; float cos_theta; … cos_theta = cos(theta); length_of_c_for_any_triangle = a * a + b * b – 2 * a * b * cos(theta); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  27. Function Call in printf A function call can also be used in an expression in a printf statement: printf("%f\n", 2.0); printf("%f\n", pow(cos(theta), 2.0)); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  28. Function Call as Argument Since any expression can be used as some function’s argument, a function call can also be used as an argument to another function: const float pi = 3.1415926; printf("%f\n", 1 + cos(asin(sqrt(2.0)/2.0) + pi)); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  29. Function Call in Initialization Most function calls can be used in initialization, as long as its arguments are literal constants: float cos_theta = cos(3.1415926); This is true both in variable initialization and in named constant initialization: const float cos_pi = cos(3.1415926); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  30. Function Use Example Part 1 #include <stdio.h> #include <math.h> int main () { /* main */ const float pi = 3.1415926; const float cos_pi = cos(3.1415926); const float sin_pi = sin(pi); const int program_success_code = 0; float phi = 3.1415926 / 4.0; float cos_phi = cos(phi); float theta, sin_theta; CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  31. Function Use Example Part 2 theta = 3.0 * pi / 4; sin_theta = sin(theta); printf("2.0 = %f\n", 2.0); printf("pi = %f\n", pi); printf("theta = %f\n", theta); printf("cos(pi) = %f\n", cos(pi)); printf("cos_pi = %f\n", cos_pi); printf("sin(pi) = %f\n", sin(pi)); printf("sin_pi = %f\n", sin_pi); printf("sin(theta) = %f\n", sin(theta)); printf("sin_theta = %f\n", sin_theta); printf("sin(theta)^(1.0/3.0) = %f\n", pow(sin(theta), (1.0/3.0))); CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  32. Function Use Example Part 3 printf("1 + sin(acos(1.0)) = %f\n", 1 + sin(acos(1.0))); printf("sin(acos(1.0)) = %f\n", sin(acos(1.0))); printf("sqrt(2.0) = %f\n", sqrt(2.0)); printf("sqrt(2.0) / 2 = %f\n", sqrt(2.0) / 2); printf("acos(sqrt(2.0)/2.0) = %f\n", acos(sqrt(2.0)/2.0)); printf("sin(acos(sqrt(2.0)/2.0)) = %f\n", sin(acos(sqrt(2.0)/2.0))); return program_success_code; } /* main */ CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  33. Function Use Example Part 4 % gcc -o funcuse funcuse.c -lm % funcuse 2.0 = 2.000000 pi = 3.141593 theta = 2.356194 cos(pi) = -1.000000 cos_pi = -1.000000 sin(pi) = 0.000000 sin_pi = 0.000000 sin(theta) = 0.707107 sin_theta = 0.707107 sin(theta)^(1.0/3.0) = 0.890899 1 + sin(acos(1.0)) = 1.000000 sin(acos(1.0)) = 0.000000 sqrt(2.0) = 1.414214 sqrt(2.0) / 2 = 0.707107 acos(sqrt(2.0)/2.0) = 0.785398 sin(acos(sqrt(2.0)/2.0)) = 0.707107 CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  34. Evaluation of Functions in Expressions When a function call appears in an expression – for example, on the right hand side of an assignment statement – the function is evaluatedjust before its value is needed, in accordance with the rules of precedence order. CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  35. Evaluation Example #1 For example, suppose that x and y are float variables, and that y has already been assigned the value -10.0. Consider this assignment statement: x = 1 + 2.0 * 8.0 + fabs(y) / 4.0; CS1313: Standard Library Functions Lesson CS1313 Spring 2009

  36. Evaluation Example #2 CS1313: Standard Library Functions Lesson CS1313 Spring 2009

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